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|
/**
* @file
*
* @ingroup RTEMSBSPsARMCycV
*/
/*
* Copyright (c) 2014 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Dornierstr. 4
* 82178 Puchheim
* Germany
* <info@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
/*
* Driver for the DS1339 RTC (Maxim Semiconductors) -> RTC1
* and the M41ST87 RTC (ST Microelectronics) -> RTC2
*
* Please note the following points:
* - The day of week is ignored.
* - The century bit is interpreted the following way:
* - century not set: TOD_BASE_YEAR .. 1999
* - century set: 2000 .. 2099
* - century not set: 2100 .. (TOD_BASE_YEAR + 200)
*/
#include <libchip/rtc.h>
#include <assert.h>
#include <rtems/score/todimpl.h>
#include <rtems/rtems/clockimpl.h>
#include <sys/filio.h>
#include <fcntl.h>
#include <string.h>
#include <unistd.h>
#include <bsp/i2cdrv.h>
#define ALTERA_CYCLONE_V_RTC_NUMBER 2
/* ******************************* DS1339 ********************************** */
#define DS1339_I2C_ADDRESS (0xD0 >> 1) /* 7-bit addressing! */
#define DS1339_I2C_BUS_DEVICE "/dev/i2c0"
#define DS1339_ADDR_TIME 0x00
#define DS1339_ADDR_CTRL 0x0E
#define DS1339_CTRL_EOSC 0x80
#define DS1339_CTRL_BBSQI 0x20
#define DS1339_CTRL_RS2 0x10
#define DS1339_CTRL_RS1 0x08
#define DS1339_CTRL_INTCN 0x04
#define DS1339_CTRL_A2IE 0x02
#define DS1339_CTRL_A1IE 0x01
#define DS1339_CTRL_DEFAULT (0x00)
#define DS1339_ADDR_STATUS 0x0F
#define DS1339_STATUS_OSF 0x80
#define DS1339_STATUS_A2F 0x02
#define DS1339_STATUS_A1F 0x01
#define DS1339_STATUS_CLEAR (0x00)
#define DS1339_ADDR_TRICKLE_CHARGE 0x10
typedef struct
{
uint8_t seconds;
uint8_t minutes;
uint8_t hours;
#define DS1339_HOURS_12_24_FLAG 0x40
#define DS1339_HOURS_AM_PM_FLAG_OR_20_HOURS 0x20
#define DS1339_HOURS_10_HOURS 0x10
uint8_t weekday;
uint8_t date;
uint8_t month;
#define DS1339_MONTH_CENTURY 0x80
uint8_t year;
}
ds1339_time_t;
/* The longest write transmission is writing the time + one address bit */
#define DS1339_MAX_WRITE_SIZE (sizeof(ds1339_time_t) + 1)
/* Functions for converting the fields */
static unsigned int ds1339_get_seconds(ds1339_time_t* time)
{
uint8_t tens = time->seconds >> 4;
uint8_t ones = time->seconds & 0x0F;
return tens * 10 + ones;
}
static unsigned int ds1339_get_minutes(ds1339_time_t* time)
{
uint8_t tens = time->minutes >> 4;
uint8_t ones = time->minutes & 0x0F;
return tens * 10 + ones;
}
static unsigned int ds1339_get_hours(ds1339_time_t* time)
{
uint8_t value = time->hours & 0x0F;
if (time->hours & DS1339_HOURS_10_HOURS)
{
value += 10;
}
if (time->hours & DS1339_HOURS_AM_PM_FLAG_OR_20_HOURS)
{
if (time->hours & DS1339_HOURS_12_24_FLAG)
value += 12;
else
value += 20;
}
return value;
}
static unsigned int ds1339_get_day_of_month(ds1339_time_t* time)
{
uint8_t tens = time->date >> 4;
uint8_t ones = time->date & 0x0F;
return tens * 10 + ones;
}
static unsigned int ds1339_get_month(ds1339_time_t* time)
{
uint8_t tens = (time->month >> 4) & 0x07;
uint8_t ones = time->month & 0x0F;
return tens * 10 + ones;
}
static unsigned int ds1339_get_year(ds1339_time_t* time)
{
unsigned int year = 1900;
year += (time->year >> 4) * 10;
year += time->year & 0x0F;
if (time->month & DS1339_MONTH_CENTURY)
year += 100;
if (year < TOD_BASE_YEAR)
year += 200;
return year;
}
static void ds1339_set_time(ds1339_time_t* time,
unsigned int second,
unsigned int minute,
unsigned int hour,
unsigned int day,
unsigned int month,
unsigned int year)
{
unsigned int tens;
unsigned int ones;
uint8_t century = 0;
tens = second / 10;
ones = second % 10;
time->seconds = tens << 4 | ones;
tens = minute / 10;
ones = minute % 10;
time->minutes = tens << 4 | ones;
tens = hour / 10;
ones = hour % 10;
time->hours = tens << 4 | ones;
/* Weekday is not used. Therefore it can be set to an arbitrary valid value */
time->weekday = 1;
tens = day / 10;
ones = day % 10;
time->date = tens << 4 | ones;
tens = month / 10;
ones = month % 10;
if ((year >= 2000) && (year < 2100))
century = DS1339_MONTH_CENTURY;
time->month = century | tens << 4 | ones;
tens = (year % 100) / 10;
ones = year % 10;
time->year = tens << 4 | ones;
}
static rtems_status_code ds1339_open_file(int* fd)
{
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
*fd = open(DS1339_I2C_BUS_DEVICE, O_RDWR);
if (*fd == -1)
sc = RTEMS_IO_ERROR;
if (sc == RTEMS_SUCCESSFUL)
{
rv = ioctl(*fd, I2C_IOC_SET_SLAVE_ADDRESS, DS1339_I2C_ADDRESS);
if (rv == -1)
sc = RTEMS_IO_ERROR;
}
return sc;
}
/* Read size bytes from ds1339 register address addr to buf. */
static rtems_status_code ds1339_read(uint8_t addr, void* buf, size_t size)
{
int fd = -1;
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
sc = ds1339_open_file(&fd);
if (sc == RTEMS_SUCCESSFUL)
{
rv = write(fd, &addr, sizeof(addr));
if (rv != sizeof(addr))
sc = RTEMS_IO_ERROR;
}
if (sc == RTEMS_SUCCESSFUL)
{
rv = read(fd, buf, size);
if (rv != size)
sc = RTEMS_IO_ERROR;
}
rv = close(fd);
if (rv != 0)
sc = RTEMS_IO_ERROR;
return sc;
}
/* Write size bytes from buf to ds1339 register address addr. */
static rtems_status_code ds1339_write(uint8_t addr, void* buf, size_t size)
{
int fd = -1;
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
/* The driver never writes many bytes. Therefore it should be less expensive
* to reserve the maximum number of bytes that will be written in one go than
* use a malloc. */
uint8_t local_buf[DS1339_MAX_WRITE_SIZE];
int write_size = size + 1;
assert(write_size <= DS1339_MAX_WRITE_SIZE);
local_buf[0] = addr;
memcpy(&local_buf[1], buf, size);
sc = ds1339_open_file(&fd);
if (sc == RTEMS_SUCCESSFUL)
{
rv = write(fd, local_buf, write_size);
if (rv != write_size)
sc = RTEMS_IO_ERROR;
}
rv = close(fd);
if (rv != 0)
sc = RTEMS_IO_ERROR;
return RTEMS_SUCCESSFUL;
}
static void altera_cyclone_v_ds1339_initialize(int minor)
{
rtems_status_code sc = RTEMS_SUCCESSFUL;
uint8_t status = 0;
/* Check RTC valid */
sc = ds1339_read(DS1339_ADDR_STATUS, &status, sizeof(status));
assert(sc == RTEMS_SUCCESSFUL);
if (status & DS1339_STATUS_OSF)
{
/* RTC has been stopped. Initialise it. */
ds1339_time_t time;
uint8_t write = DS1339_CTRL_DEFAULT;
sc = ds1339_write(DS1339_ADDR_CTRL, &write, sizeof(write));
assert(sc == RTEMS_SUCCESSFUL);
write = DS1339_STATUS_CLEAR;
sc = ds1339_write(DS1339_ADDR_STATUS, &write, sizeof(write));
assert(sc == RTEMS_SUCCESSFUL);
ds1339_set_time(&time, 0, 0, 0, 1, 1, TOD_BASE_YEAR);
sc = ds1339_write(DS1339_ADDR_TIME, &time, sizeof(time));
assert(sc == RTEMS_SUCCESSFUL);
}
}
static int altera_cyclone_v_ds1339_get_time(int minor, rtems_time_of_day* tod)
{
ds1339_time_t time;
rtems_status_code sc = RTEMS_SUCCESSFUL;
rtems_time_of_day temp_tod;
sc = ds1339_read(DS1339_ADDR_TIME, &time, sizeof(time));
if (sc == RTEMS_SUCCESSFUL)
{
temp_tod.ticks = 0;
temp_tod.second = ds1339_get_seconds(&time);
temp_tod.minute = ds1339_get_minutes(&time);
temp_tod.hour = ds1339_get_hours(&time);
temp_tod.day = ds1339_get_day_of_month(&time);
temp_tod.month = ds1339_get_month(&time);
temp_tod.year = ds1339_get_year(&time);
sc = _TOD_Validate(&temp_tod, TOD_ENABLE_TICKS_VALIDATION);
if (sc == RTEMS_SUCCESSFUL)
memcpy(tod, &temp_tod, sizeof(temp_tod));
}
return -sc;
}
static int altera_cyclone_v_ds1339_set_time(int minor, const rtems_time_of_day* tod)
{
ds1339_time_t time;
rtems_status_code sc = RTEMS_SUCCESSFUL;
ds1339_set_time(&time,
tod->second,
tod->minute,
tod->hour,
tod->day,
tod->month,
tod->year
);
sc = ds1339_write(DS1339_ADDR_TIME, &time, sizeof(time));
return -sc;
}
static bool altera_cyclone_v_ds1339_probe(int minor)
{
rtems_status_code sc = RTEMS_SUCCESSFUL;
uint8_t buf;
/* try to read from register address 0x00 */
sc = ds1339_read(0x00, &buf, 1);
if (sc != RTEMS_SUCCESSFUL)
/* no RTC implemented */
return false;
/* try to read from register address 0x20 (not implemented in DS1339) */
sc = ds1339_read(0x20, &buf, 1);
if (sc == RTEMS_SUCCESSFUL)
/* RTC is not DS1339 */
return false;
return true;
}
/* ******************************* M41ST87 ********************************** */
#define M41ST87_I2C_ADDRESS (0xD0 >> 1) /* 7-bit addressing! */
#define M41ST87_I2C_BUS_DEVICE "/dev/i2c0"
#define M41ST87_ADDR_TIME 0x00
#define M41ST87_ADDR_CTRL 0x08
#define M41ST87_CTRL_OUT 0x80
#define M41ST87_CTRL_FT 0x40
#define M41ST87_CTRL_S 0x20
#define M41ST87_CTRL_CAL 0x1F
#define M41ST87_ADDR_ALARM_HOUR 0x0C
#define M41ST87_BIT_HT 0x40
#define M41ST87_ADDR_FLAGS 0x0F
#define M41ST87_FLAG_WDF 0x80
#define M41ST87_FLAG_AF 0x40
#define M41ST87_FLAG_BL 0x10
#define M41ST87_FLAG_OF 0x04
#define M41ST87_FLAG_TB1 0x02
#define M41ST87_FLAG_TB2 0x01
#define M41ST87_ADDR_USER_RAM 0x20
typedef struct
{
uint8_t sec100;
uint8_t seconds;
#define M41ST87_BIT_ST 0x80
uint8_t minutes;
#define M41ST87_BIT_OFIE 0x80
uint8_t hours;
#define M41ST87_BIT_CB1 0x80
#define M41ST87_BIT_CB0 0x40
uint8_t weekday;
#define M41ST87_BIT_TR 0x80
#define M41ST87_BIT_THS 0x40
#define M41ST87_BIT_CLRPW1 0x20
#define M41ST87_BIT_CLRPW0 0x10
#define M41ST87_BIT_32KE 0x08
uint8_t day;
#define M41ST87_BIT_PFOD 0x80
uint8_t month;
uint8_t year;
}
m41st87_time_t;
/* The longest write transmission is writing the time + one address bit */
#define M41ST87_MAX_WRITE_SIZE (sizeof(m41st87_time_t) + 1)
/* Functions for converting the fields */
/*
static unsigned int m41st87_get_sec100(m41st87_time_t* time)
{
uint8_t tens = time->sec100 >> 4;
uint8_t ones = time->sec100 & 0x0F;
return tens * 10 + ones;
}
*/
static unsigned int m41st87_get_seconds(m41st87_time_t* time)
{
uint8_t tens = (time->seconds >> 4) & 0x07;
uint8_t ones = time->seconds & 0x0F;
return tens * 10 + ones;
}
static unsigned int m41st87_get_minutes(m41st87_time_t* time)
{
uint8_t tens = (time->minutes >> 4) & 0x07;
uint8_t ones = time->minutes & 0x0F;
return tens * 10 + ones;
}
static unsigned int m41st87_get_hours(m41st87_time_t* time)
{
uint8_t tens = (time->hours >> 4) & 0x03;
uint8_t ones = time->hours & 0x0F;
return tens * 10 + ones;
}
/*
static unsigned int m41st87_get_day_of_week(m41st87_time_t* time)
{
return time->weekday & 0x07;
}
*/
static unsigned int m41st87_get_day_of_month(m41st87_time_t* time)
{
uint8_t tens = (time->day >> 4) & 0x03;
uint8_t ones = time->day & 0x0F;
return tens * 10 + ones;
}
static unsigned int m41st87_get_month(m41st87_time_t* time)
{
uint8_t tens = (time->month >> 4) & 0x01;
uint8_t ones = time->month & 0x0F;
return tens * 10 + ones;
}
static unsigned int m41st87_get_year(m41st87_time_t* time)
{
uint8_t century = time->hours >> 6;
uint8_t tens = time->year >> 4;
uint8_t ones = time->year & 0x0F;
return 1900 + century * 100 + tens * 10 + ones;
}
static void m41st87_set_time(m41st87_time_t* time,
unsigned int second,
unsigned int minute,
unsigned int hour,
unsigned int day,
unsigned int month,
unsigned int year)
{
unsigned int century;
unsigned int tens;
unsigned int ones;
if (year < 1900)
year = 1900;
if (year > 2399)
year = 2399;
century = (year - 1900) / 100;
/* Hundreds of seconds is not used, set to 0 */
time->sec100 = 0;
tens = second / 10;
ones = second % 10;
time->seconds = (time->seconds & 0x80) | (tens << 4) | ones;
tens = minute / 10;
ones = minute % 10;
time->minutes = (time->minutes & 0x80) | (tens << 4) | ones;
tens = hour / 10;
ones = hour % 10;
time->hours = (century << 6) | (tens << 4) | ones;
/* Weekday is not used. Therefore it can be set to an arbitrary valid value */
time->weekday = (time->weekday & 0xF8) | 1;
tens = day / 10;
ones = day % 10;
time->day = (time->day & 0x80) | (tens << 4) | ones;
tens = month / 10;
ones = month % 10;
time->month = (tens << 4) | ones;
tens = (year % 100) / 10;
ones = year % 10;
time->year = (tens << 4) | ones;
}
static rtems_status_code m41st87_open_file(int* fd)
{
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
*fd = open(M41ST87_I2C_BUS_DEVICE, O_RDWR);
if (*fd == -1)
sc = RTEMS_IO_ERROR;
if (sc == RTEMS_SUCCESSFUL)
{
rv = ioctl(*fd, I2C_IOC_SET_SLAVE_ADDRESS, M41ST87_I2C_ADDRESS);
if (rv == -1)
sc = RTEMS_IO_ERROR;
}
return sc;
}
/* Read size bytes from m41st87 register address addr to buf. */
static rtems_status_code m41st87_read(uint8_t addr, void* buf, size_t size)
{
int fd = -1;
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
sc = m41st87_open_file(&fd);
if (sc == RTEMS_SUCCESSFUL)
{
rv = write(fd, &addr, sizeof(addr));
if (rv != sizeof(addr))
sc = RTEMS_IO_ERROR;
}
if (sc == RTEMS_SUCCESSFUL)
{
rv = read(fd, buf, size);
if (rv != size)
sc = RTEMS_IO_ERROR;
}
rv = close(fd);
if (rv != 0)
sc = RTEMS_IO_ERROR;
return sc;
}
/* Write size bytes from buf to m41st87 register address addr. */
static rtems_status_code m41st87_write(uint8_t addr, void* buf, size_t size)
{
int fd = -1;
int rv = 0;
rtems_status_code sc = RTEMS_SUCCESSFUL;
/* The driver never writes many bytes. Therefore it should be less expensive
* to reserve the maximum number of bytes that will be written in one go than
* use a malloc. */
uint8_t local_buf[M41ST87_MAX_WRITE_SIZE];
int write_size = size + 1;
assert(write_size <= M41ST87_MAX_WRITE_SIZE);
local_buf[0] = addr;
memcpy(&local_buf[1], buf, size);
sc = m41st87_open_file(&fd);
if (sc == RTEMS_SUCCESSFUL)
{
rv = write(fd, local_buf, write_size);
if (rv != write_size)
sc = RTEMS_IO_ERROR;
}
rv = close(fd);
if (rv != 0)
sc = RTEMS_IO_ERROR;
return RTEMS_SUCCESSFUL;
}
static void altera_cyclone_v_m41st87_initialize(int minor)
{
m41st87_time_t time;
rtems_status_code sc = RTEMS_SUCCESSFUL;
uint8_t value;
/* Check RTC valid */
sc = m41st87_read(M41ST87_ADDR_TIME, &time, sizeof(time));
assert(sc == RTEMS_SUCCESSFUL);
if (time.seconds & M41ST87_BIT_ST)
{
/* RTC has been stopped. Reset stop flag. */
time.seconds = 0;
/* Initialise RTC. */
m41st87_set_time(&time, 0, 0, 0, 1, 1, TOD_BASE_YEAR);
sc = m41st87_write(M41ST87_ADDR_TIME, &time, sizeof(time));
assert(sc == RTEMS_SUCCESSFUL);
}
/* Reset HT bit */
sc = m41st87_read(M41ST87_ADDR_ALARM_HOUR, &value, 1);
assert(sc == RTEMS_SUCCESSFUL);
value &= ~M41ST87_BIT_HT;
sc = m41st87_write(M41ST87_ADDR_ALARM_HOUR, &value, 1);
assert(sc == RTEMS_SUCCESSFUL);
}
static int altera_cyclone_v_m41st87_get_time(int minor, rtems_time_of_day* tod)
{
m41st87_time_t time;
rtems_status_code sc = RTEMS_SUCCESSFUL;
rtems_time_of_day temp_tod;
sc = m41st87_read(M41ST87_ADDR_TIME, &time, sizeof(time));
if (sc != RTEMS_SUCCESSFUL)
return -sc;
temp_tod.ticks = 0;
temp_tod.second = m41st87_get_seconds(&time);
temp_tod.minute = m41st87_get_minutes(&time);
temp_tod.hour = m41st87_get_hours(&time);
temp_tod.day = m41st87_get_day_of_month(&time);
temp_tod.month = m41st87_get_month(&time);
temp_tod.year = m41st87_get_year(&time);
sc = _TOD_Validate(&temp_tod, TOD_ENABLE_TICKS_VALIDATION);
if (sc == RTEMS_SUCCESSFUL)
memcpy(tod, &temp_tod, sizeof(temp_tod));
return -sc;
}
static int altera_cyclone_v_m41st87_set_time(int minor, const rtems_time_of_day* tod)
{
m41st87_time_t time;
rtems_status_code sc = RTEMS_SUCCESSFUL;
/* first read to preserve the additional flags */
sc = m41st87_read(M41ST87_ADDR_TIME, &time, sizeof(time));
if (sc != RTEMS_SUCCESSFUL)
return -sc;
m41st87_set_time(&time,
tod->second,
tod->minute,
tod->hour,
tod->day,
tod->month,
tod->year
);
sc = m41st87_write(M41ST87_ADDR_TIME, &time, sizeof(time));
return -sc;
}
static bool altera_cyclone_v_m41st87_probe(int minor)
{
rtems_status_code sc = RTEMS_SUCCESSFUL;
uint8_t buf;
/* try to read from register address 0x00 */
sc = m41st87_read(0x00, &buf, 1);
if (sc != RTEMS_SUCCESSFUL)
/* no RTC implemented */
return false;
/* try to read from register address 0x20 (implemented in M41ST87) */
sc = m41st87_read(0x20, &buf, 1);
if (sc != RTEMS_SUCCESSFUL)
/* RTC is not M41ST87 */
return false;
return true;
}
/* **************************************** General ********************************** */
const rtc_fns altera_cyclone_v_ds1339_ops =
{
.deviceInitialize = altera_cyclone_v_ds1339_initialize,
.deviceGetTime = altera_cyclone_v_ds1339_get_time,
.deviceSetTime = altera_cyclone_v_ds1339_set_time
};
const rtc_fns altera_cyclone_v_m41st87_ops =
{
.deviceInitialize = altera_cyclone_v_m41st87_initialize,
.deviceGetTime = altera_cyclone_v_m41st87_get_time,
.deviceSetTime = altera_cyclone_v_m41st87_set_time
};
size_t RTC_Count = ALTERA_CYCLONE_V_RTC_NUMBER;
rtc_tbl RTC_Table[ALTERA_CYCLONE_V_RTC_NUMBER] =
{
{
.sDeviceName = "/dev/rtc",
.deviceType = RTC_CUSTOM,
.pDeviceFns = &altera_cyclone_v_ds1339_ops,
.deviceProbe = altera_cyclone_v_ds1339_probe,
.pDeviceParams = NULL,
.ulCtrlPort1 = 0,
.ulDataPort = 0,
.getRegister = NULL,
.setRegister = NULL
},
{
.sDeviceName = "/dev/rtc",
.deviceType = RTC_CUSTOM,
.pDeviceFns = &altera_cyclone_v_m41st87_ops,
.deviceProbe = altera_cyclone_v_m41st87_probe,
.pDeviceParams = NULL,
.ulCtrlPort1 = 0,
.ulDataPort = 0,
.getRegister = NULL,
.setRegister = NULL
}
};
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